聚二甲基硅氧烷纳米复合材料中热输运的多尺度研究:石墨烯vs .硼

ty10086 提交于 周三, 08/25/2021 - 15:51
文章英文标题
A Multiscale Investigation on the Thermal Transport in Polydimethylsiloxane Nanocomposites: Graphene vs. Borophene
正文
石墨烯和硼苯是极具吸引力的二维材料,具有优异的物理性能。以聚二甲基硅氧烷( PDMS )聚合物为基体,石墨烯和硼苯为纳米填料,采用原子连续多尺度模型相结合的方法研究了聚合物纳米复合材料的有效热导率。PDMS是一种用途广泛的聚合物,由于其化学惰性、柔韧性和广泛的性质,可以在合成过程中进行调节。我们首先进行了经典的分子动力学( MD )模拟,计算了石墨烯与PDMS界面处以及硼与PDMS界面处的热导率。得到的结果证实,纳米片与聚合物之间的界面热导率从单层增加到多层纳米片,最终在石墨烯的情况下收敛到30 MWm–2 K–1左右,而在硼氢化物的情况下收敛到33 MWm–2 K–1。我们探索了纳米填料种类、体积含量、几何长径比和厚度对纳米复合材料有效热导率的影响。作为一个非常有趣的发现,与石墨烯相比,尽管硼纳米片的热导率比石墨烯低近两个数量级,但其有效热导率却能得到非常接近的增强,特别是在低体积含量、小长径比和厚度的情况下。我们认为,对于聚合物基纳米复合材料,可以通过改善填料与聚合物之间的键合,或者通过提高界面处的热导率来显著提高其热导率。考虑到硼苯的高导电性,我们的研究结果表明硼苯纳米片可以同时提高聚合物的热导率和导电性。
文章内容(英文)
Graphene and borophene are highly attractive two-dimensional materials with outstanding physical properties. In this study we employed combined atomistic continuum multi-scale modeling to explore the effective thermal conductivity of polymer nanocomposites made of polydimethylsiloxane (PDMS) polymer as the matrix and graphene and borophene as nanofillers. PDMS is a versatile polymer due to its chemical inertia, flexibility and a wide range of properties that can be tuned during synthesis. We first conducted classical Molecular Dynamics (MD) simulations to calculate the thermal conductance at the interfaces between graphene and PDMS and between borophene and PDMS. Acquired results confirm that the interfacial thermal conductance between nanosheets and polymer increases from the single-layer to multilayered nanosheets and finally converges, in the case of graphene, to about 30 MWm−2 K−1 and, for borophene, up to 33 MWm−2 K−1. The data provided by the atomistic simulations were then used in the Finite Element Method (FEM) simulations to evaluate the effective thermal conductivity of polymer nanocomposites at the continuum level. We explored the effects of nanofiller type, volume content, geometry aspect ratio and thickness on the nanocomposite effective thermal conductivity. As a very interesting finding, we found that borophene nanosheets, despite having almost two orders of magnitude lower thermal conductivity than graphene, can yield very close enhancement in the effective thermal conductivity in comparison with graphene, particularly for low volume content and small aspect ratios and thicknesses. We conclude that, for the polymer-based nanocomposites, significant improvement in the thermal conductivity can be reached by improving the bonding between the fillers and polymer, or in other words, by enhancing the thermal conductance at the interface. By taking into account the high electrical conductivity of borophene, our results suggest borophene nanosheets as promising nanofillers to simultaneously enhance the polymers’ thermal and electrical conductivity.
来源出处
Journal|[J]NanomaterialsVolume 11, Issue 5. 2021. PP 1252-1252
DOI
https://doi.org/10.3390/NANO11051252

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